WO1999015118A1

WO1999015118A1 - Colour glasses

Info

Publication number: WO1999015118A1
Application number: PCT/CH1998/000387
Authority: WO
Inventors: Andreas Maurer; Pascal Mosetti
Original assignee: Andreas Maurer; Pascal Mosetti
Priority date: 1997-09-22
Filing date: 1998-09-09
Publication date: 1999-04-01
Also published as: AU8850998A; EP0903132A1

Abstract

In therapies, especially chromatic light therapies, or for use as a motivational factor in the recreational and sport fields, colour glasses presenting a device with polarizing filters can be used. The polarizing filters enable the whole colour spectrum of light to be extensively used.

Description

Colored glasses

The present invention relates to colored glasses according to the preamble of claim 1 and to the use of colored glasses as colored light therapy glasses and as stimulation or stimulation glasses in the field of leisure and sport.

The power of color is part of the natural energies of the universe. Healing with colors was already known and practiced in ancient Egypt and Greece, in China, India and Tibet. It also has a firm place in the traditional knowledge of the Maya culture in Central America and the North American Indian tribes. The knowledge of the colors and their meaning was reflected in the Greek philosophy of classical antiquity, in the doctrine of Pythagoras or Plato, for example, before it almost completely disappeared for centuries. It wasn't until Newton's color theory works,

Goethe and others again started a theoretical examination of the properties of colors, color and light. Today's therapeutic applications of colored light are a valuable addition to natural healing. Interest in this area, especially in the European countries, is becoming increasingly important, especially in the leisure and sports area, even in the medical area. The forms of treatment range from simple therapies to the specialized use of colored forms such as crystals, oils and, above all, light. Our energy acts on all levels

Being, also of the mental, emotional, physical and spiritual level. Light is electromagnetic radiation, i.e. energy. The eyes translate the energy of light into signals, nerve impulses, which the brain then evaluates: this process is called seeing. The visible light exposes itself the colors that we know from the rainbow. It represents only a part of the entire spectrum from the sun that surrounds us. Light and color have a strong effect on the body as well as on the mind, whether consciously or not. People react physically, mentally and emotionally to the interplay of colors.

Some examples are

• Physical (physical) reactions to colors: The basic rule is that the red area of the spectrum creates tension in the body. In contrast, the blue area is more relaxing. Irradiation with red light increases blood pressure, while blue light tends to lower it.

• Mental reactions to colors: color changes perception, for example a red space appears smaller than a blue one.

• Emotional reactions to colors: colors influence the feelings of the viewer, depending on the physical sensations and the associated psychological associations. For example, red is exciting, while blue is soothing.

The literature available to the general public on the entire spectrum of effects of the most varied of colors and color combinations confirms the intensive interest in alternative healing methods and specifically in colored light therapy as an effective healing method.

The body's light and control systems

The light waves striking the eye trigger nerve impulses on the retina, which are transmitted as a coded message Optic nerve to the visual center in the posterior cerebral turn. Some of the impulses on their way also stimulate the hypotalamus, the seat of the body's biological clock and the center of control of the sleep-wake rhythm, food intake and other important functions such as body heat and water balance. The hypotalamus affects the pituitary and pineal glands. These glands also receive feedback from all cells in the body regarding the amount and color quality of the light striking the body. These glands control the body's functions by producing hormones that in turn stimulate other glands, such as the adrenal glands and the sex glands, and regulate the body's metabolism.

To carry out color therapies, special lamps are usually used today, which are either provided with colored light bulbs, or in which light is shone through colored foils, for example, onto the skin of the human body. Or entire rooms are illuminated using appropriate light sources, which are either colored or where light is projected through colored foils or glasses. Special headlights from discotheques are also known, in which practically the entire color range can be produced by arranging special color filters. With all of these special light sources or devices for producing the various colors and color palettes, there is the major disadvantage that either a color change is relatively cumbersome or, as with headlights, for example, a whole group of people are always exposed to the same color, with which an individual sense of color is made impossible. The object of the present invention is therefore to create a device by means of which each color shade can be quickly and practically infinitely adjusted in the simplest way and in particular each color shade can be individually adjusted to each person.

According to the invention the object is achieved by means of colored glasses according to the wording, in particular according to claim 1.

The invention is characterized by a light polarization device in the form of colored glasses. These glasses allow direct through the combination of polarization filters

"Adjustment" of the entire color spectrum from the light. In the form of a single product solution, this enables the application of the entire color spectrum and a wide variety of color nuances, intensities and combinations set according to individual needs. The effect of the entire color spectrum is therefore possible with a product solution, a simple self-application and at a reasonable cost / performance ratio. The limitation of the existing solutions on the market in the form of glasses, i.e. the way colors work via the eye, is based on the availability of only individual colored glasses in a limited color spectrum.

Sunglasses are known from the prior art, such as in particular US Pat. No. 5,210,552, in which the sunlight and UV light-absorbing coloring of the spectacle lenses is achieved by means of polarization filters. In this case, two lens elements are provided in the sunglasses, made of polarized material, the lenses being rotatable relative to one another in order to effect the tinting of the glasses. Similar sunglasses or protective glasses are described in WO94 / 00790 and DE 34 45 808. US Pat. No. 5,663,779, in turn, is about colored polarization filters, ie about a combination of neutral polarization filters with normal color filters. This US patent proposes how the brightness of a particular color can be changed without changing the color itself; in other words the gradient from a certain color to black or vice versa. This US patent further describes the intensity of a particular color and how this can be varied. None of the described documents from the prior art is directed to colored glasses of the type proposed according to the invention and is therefore also not suitable for providing a solution for the object set according to the invention.

The colored light glasses, hereinafter referred to as glasses, are intended to serve any desired color from the available light

Filter out (daylight or artificial light) or withhold the unwanted colors. According to various studies, depending on the color, intensity and duration of exposure, the color or color mixture left by the glasses should have a certain effect, such as on a person's well-being. The glasses represent a possible carrier of the technology used for filtering light. The technology is based on the use of neutral polarization filters in combination with color polarization filters, as is known, for example, from international patent application W094 / 28445. Color polarization filters are placed behind or in front of the neutral polarization filter and arranged so that they can be rotated relative to the neutral filter. This means that the polarization axis relative to the corresponding axis of the neutral filter must be adjustable. Every single color polarization filter only works in a certain spectrum of light. This spectrum is transmitted to the angle difference (neutral to color filter), all light at 0 ° and only the remaining spectrum of the corresponding color filter at 90 °. When combining the neutral filter with several different color filters, practically any color can be filtered out of the spectrum of the original light. This technique could also be used on windows, for example, with the same effect, so that rooms appear in a certain light.

The invention will now be explained in more detail, for example, and with reference to the accompanying figures. Show:

Fig. 1: schematically an inventive color glasses in the assembled state and

FIG. 2: the glasses according to the invention from FIG. 1 in the pulled-apart state, in particular showing the various color filters arranged one behind the other.

As with all glasses, the frame 11 serves to hold and place the glasses or the filters and the rotating mechanism, as in our case. The carrier 111 is the main part for receiving all other parts. The front half 1111 of the carrier 111 has an opening on the lower left side, so that the wheel of the front color filter 1311 comes to light in order to be able to adjust the filter. Using the corresponding pinion, the corresponding filter on the other side is rotated in the same direction by the same angle. The rear half 1112 of the carrier has an opening on the right, lower side so that the wheel of the rear color filter is exposed in order to be able to adjust the filter. about the corresponding pinion, the corresponding filter is rotated on the other side in the same direction by the same angle. The temples 112 have the same function as with any glasses and can accordingly be designed differently. The apertures 113 are intended to prevent stray light from entering the eyes from the side or from the rear. Only light that has passed through the filter should get into the eye in order to obtain the greatest possible benefit. The panels should be made of soft material such as rubber or leather in order to adapt optimally to the shape of the head and to give in when the bracket is closed. The pads 114 form the support for the glasses for the nose. They should be made of a soft material, such as rubber. In our case (as a possible variant) these pads are inserted form-fitting between the carrier parts. The connecting elements 115 (as a possible variant:

Rivets) serve to hold the carrier parts and thus the whole mechanism together. Instead of rivets 1151, another connection technique could also be used. The glasses 12 are composed of a combination of different filters. The neutral filters 121 are polarization filters with a pronounced effective range in the entire visible wavelength range. The neutral filter is the basis for filtering out a certain color from the output light (usually daylight). This filter does not necessarily have to be rotatably mounted and is therefore firmly attached to the carrier in the example of glasses. The polarization axis can lie anywhere. The left and right sides do not have to be axially parallel to each other. For use in color light therapy, however, this should be the case, since otherwise the left and the right when looking at certain objects

Eye receives different representations, causing irritation can lead. However, this effect can be important for other applications. The color filters 122 are polarization filters with a pronounced effective range in a specific wavelength range. The color filters are installed in such a way that they can be rotated in relation to the neutral filters. The twist (together with the neutral filter) effects a filtering effect of the light in a certain wavelength range or in certain ranges. The angle of rotation of the polarization axes relative to the polarization axes of the neutral filter is important and must be the same for the left and the right side in order to obtain the same color effect on both sides. Each of the individual color filters connected in series filters out its own wavelength range of light, so that in the end there remains an area or areas to which a certain color or color mixture corresponds. The yellow filter 1221 is a polarization filter which has a pronounced effect in the yellow light spectrum. The remaining wavelength ranges are left unhindered by the filter. The red filter 1222 is a polarization filter, which has a pronounced effect in the red light spectrum. The remaining wavelength ranges are left unhindered by the filter. The blue filter 1223 is a polarization filter, which has a pronounced effect in the blue light spectrum. The remaining wavelength ranges are left unhindered by the filter. The cover glass 123 serves on the one hand to protect the filters lying behind it, and on the other hand the glass can also be replaced by cut glasses for spectacle wearers. It should not have any color-changing or polarizing effects on the incident light. The adjusting mechanism 13 serves to turn the color filter with respect to the neutral filter. The adjustment of the three filters is spatially separated from each other, so that firstly two filters cannot be accidentally adjusted at the same time and secondly it is easier to remember where which color is to be adjusted. The front filters are adjusted on the left, front and bottom of the wheel, the middle filters on the pinion in the middle, above and the rear filters on the right, rear and bottom of the wheel. Of course, this can also be done in reverse. The wheels 131 serve to hold the color filters and have a toothing so that they can be brought into engagement with the corresponding pinion. A rotatability of at least 90 ° must be guaranteed so that the full polarization effect comes into play. In our case, the wheel also has a stop, so that it can be turned by exactly 90 °. This makes it easier to find extreme positions (0 °, 90 °). Intermediate divisions should be marked with a simple scale on the adjustment wheels and on the adjustment pinion so that the setting of a certain color is simplified. The front wheel 1311 has knurling at the point where the wheel looks out of the carrier. This makes it easier to adjust the wheel using your fingers. There is also a scale to enable precise adjustment. The middle wheel 1312 is accommodated in the carrier in such a way that it cannot be actuated from the outside. It is operated via the middle pinion. The rear wheel 1313 has knurling at the point where the wheel looks out of the carrier. This makes it easier to adjust the wheel using your fingers. There is also a scale to enable precise adjustment. The pinion 132 serves to be able to adjust corresponding color filters of the left and the right side in the same direction of rotation by the same angle. A simple toothing is used for this. The front sprocket 1321 is countersunk in the carrier so that it is not accidentally can be adjusted together with another sprocket. The central pinion 1322 looks out of the carrier so that it is easy to operate with the finger. There is also a scale to enable precise adjustment. The rear sprocket 1323 is countersunk in the carrier so that it cannot be accidentally adjusted together with another sprocket. The intermediate film 133 prevents the uncontrolled twisting of adjacent filters when a filter is rotated. It can also be designed as a dust seal between the filters.

The glasses described above with reference to the attached figures are of course only one possible embodiment variant of a color glasses according to the invention, which can be modified, modified or supplemented by further elements in any desired manner. It is essential that the colored glasses contain a light polarization device with polarization filters or with other suitable optical filters, such as so-called LCDs, by means of which at least part of the color spectrum of the light can be adjusted, in particular in the visible range. Such glasses are suitable both for performing so-called color therapies on individual patients and for stimulating people, for example in the leisure and sports sector. It is conceivable that by setting certain colors on the color glasses, specific mood states can be created for the wearer, be it a particularly excited, tension-laden state in order to achieve a particular sporting performance, or a relaxed state, for example special ones To be able to enjoy special impressions. The is also for creating meditative states Use of the color glasses proposed according to the invention is conceivable.

The glasses proposed according to the invention can also be used in the media world, for example in connection with the generation of special color effects or else in connection with the novel 3D projections which, depending on the color shade set in the glasses, can produce different plastic effects or impressions when viewed . For example, consider the new large-screen projections in so-called "IMAX" cinemas.

The color glasses proposed according to the invention can also be produced in combination with a so-called UVA or UVB protection, for example by incorporating the protection factors directly into the filters proposed according to the invention. It goes without saying that additional ones are also attached

Filters possible, as well as the use of polished glasses, so that spectacle wearers can see clearly when wearing the colored glasses according to the invention.

According to a further embodiment variant, it is possible to arrange the glasses interchangeably so that different color filters can be used. The three basic filters yellow, blue and red mentioned with reference to the figures are probably the basic settings, but of course other basic colors can also be used, such as red, blue and green or cyan, magenta and yellow, or red, yellow and ultramarine etc .

Finally, it is also possible to provide the colored glasses with a special mirror effect, as is used in particular in so-called “fun” glasses in sports and leisure. det.

Claims

Claims:

1. Color glasses, characterized by a light polarization device with polarization filters, by means of which at least part of the color spectrum of the light can be adjusted.

2. Color glasses, in particular according to claim 1, characterized in that in addition to at least one neutral polarization filter (121) at least one color polarization filter (1221, 1222, 1223), preferably at least two color polarization filters, is arranged ).

3. Color glasses, in particular according to one of claims 1 or

2, characterized in that the neutral filter or filters are polarization filters with a pronounced effective range in the entire visible wave range, and in that the color filter and neutral filter are arranged rotatable relative to one another.

4. colored glasses, in particular according to one of claims 1 to 3, characterized in that one polarization device is provided per eye side, which are largely identical in construction.

5. Colored glasses, in particular according to claim 4, characterized in that the two polarization devices provided on each side of the eye are coupled to one another in such a way that the angle of rotation of the polarization axes relative to the polarization axes of the neutral filter is the same for the left and right side of the glasses to get the same color effect in both glasses.

6. Color glasses, in particular according to one of claims 1 to 5, characterized in that the polarization device comprises at least four filters arranged one behind the other, wherein at least three color filters are arranged next to a neutral filter.

7. Color glasses, in particular according to one of claims 1 to 6, characterized in that the polarization device has at least three color filters for one basic color, which in combination result in part or largely the entire visible color spectrum range, such as a yellow one Red and a blue filter as a polarization filter.

8. Color glasses, in particular according to one of claims 5 to 7, characterized in that at least the color filter can be rotated by at least 90 ° so that the full polarization effect comes into play.

9. Use of the color glasses according to one of claims 1 to 8 as color light therapy glasses.

10. Use of the color glasses according to one of claims 1 to 8 as stimulation or stimulation glasses in the field of leisure and sports.